RU2226257C2 - Bullet (versions) - Google Patents

Abstract

FIELD: small-arms ammunition for firing from short small arms (pistols, submachine guns, and the like). SUBSTANCE: bullet has envelope made in form of sleeve, jacket and steel bullet slug with point of bullet projecting beyond open end of envelope. Section of driving part of bullet is made in form of truncated cone whose lesser diameter exceeds or is equal to diameter of fields of barrel bore but is lesser than diameter of bullet. Height of cone is equal to 1/3-1/2 length of driving part of bullet. According to second version, tail part of jacket is made in form of truncated cone with compensated recess between it and envelope; lesser diameter of cone exceeds or is equal to diameter of fields of barrel bore minus doubled thickness of envelope on driving part of bullet but is lesser than diameter of bullet minus doubled thickness of envelope wall on driving part of bullet. EFFECT: improved closely-grouped fire due to retained stability of deformation over entire length of driving part of bullet. 4 cl, 3 dwg

Description

The invention relates to small arms ammunition intended for firing short-barreled weapons (pistols, submachine guns, etc.), intended for firing pistol cartridges at the enemy’s manpower, terrorists and criminals, both protected and not protected by individual means (anti-fragmentation bulletproof vests ), as well as vehicles for the destruction of their engines and transmissions.

A known bullet (see RF patent No. 2103659), containing a core made of a solid material, such as steel, and a shell partially overlapping the head of the core and having an opening on the side of the head, located between the shell and the core, a shirt made of soft material, for example lead or aluminum.

The disadvantage of this bullet is its relatively large dispersion, which worsens the accuracy of the bullet battle, due to the fact that when the bullet passes through the rifling of the gun barrel, the shirt is deformed and its material moves towards the open head of the bullet, i.e. the center of gravity of the bullet may shift towards the head.

In addition, due to the fact that the diameter of the leading part of the bullet is the same along its entire length and the leading part ends with the bottom, which plays the role of a stiffener, the deformation force increases when the bullet passes through the rifling of the barrel of the weapon.

If the bullet does not contain a shirt between the shell and the core, then there is no stability in the accuracy of the battle due to the uneven deformation of the shell when cutting the bullet into the grooves of the gun barrel channels.

Known bullet (see RF patent No. 20178780), containing a shell in the form of a glass, a shirt and a steel core, installed with the protrusion of the head part for the open end of the shell.

This bullet has a better combat accuracy compared to the analogue due to the fact that one of the reasons that worsen the accuracy of elimination has been eliminated, namely, a polyethylene shirt is used, which is more rigid than, for example, the lead shirt of the analogue, which prevents the shirt material from moving towards the head .

However, the diameter of the leading and tail parts of this bullet is the same, moreover, the tail part ends with the bottom, this leads to an increase in the deformation force when the bullet passes through the cuts of the gun barrel, since the bottom plays the role of a stiffener.

This bullet is taken as a prototype, because has the most common features with the proposed solution.

The objective of the invention is to improve the accuracy of fire by reducing the force acting on the bottom of the shell during the passage of the bullet through the rifling of the barrel of the weapon, which ensures stability of deformation along the entire length of the leading part of the bullet.

The task (according to the first embodiment) is achieved by the fact that in a known pool containing a shell in the form of a glass, a shirt and a steel core installed with the protrusion of the head over the open end of the shell, the portion of the leading part of the bullet is made in the form of a truncated cone, the smaller diameter of which is larger or equal to the diameter of the fields of the barrel of the weapon, but less than the diameter of the bullet.

The height of the cone is 1 / 3-1 / 2 of the length of the leading part of the bullet.

The task (in the second embodiment) is achieved by the fact that in a known pool containing a shell in the form of a glass, a shirt and a steel core installed with the protrusion of the head over the open end of the shell, the tail of the shirt is made in the form of a truncated cone with the formation between it and the shell compensation sinus, while the smaller diameter of the cone is greater than or equal to the diameter of the fields of the gun barrel minus twice the shell thickness on the leading part of the bullet, but less than the diameter of the bullet minus twice the shell wall thickness on the leading part of the bullet.

The height of the cone is 1 / 3-1 / 2 of the length of the leading part of the bullet.

Figure 1 shows a bullet with a truncated cone on the leading part.

Figure 2 - bullet with a sinus.

Figure 3 is a cross section of the barrel of the weapon.

The proposed bullet (according to option 1) (Fig. 1) contains a shell 1 in the form of a glass, in which a steel core 2 is placed, and a polyethylene shirt 3. The core 2 is installed with the protrusion of the head over the open end of the shell 1. A polyethylene shirt 3 is placed between the shell 1 and core 2. The section of the leading part of the bullet is made in the form of a truncated cone with the following ratio of the parameters of its elements:

- the height l _{1 of the} cone is equal to 1/3 ... 1/2 of the length of the leading part l of the bullet, and the smaller diameter d _{1 of the} cone is greater than or equal to the diameter d of _item fields of the channel of the barrel of the weapon, but less than the diameter d _p. bullets.

These ratios are determined by the results of experiments.

If the height l _{1 of the} cone is less than 1/3 of the length of the leading part l of the bullet, then the deformation force increases when the bullet passes through the cuts of the barrel channel due to the increase in the length of the leading part of the bullet having a diameter equal to the diameter of the bullet.

If the height l _{1 of the} cone is more than ^1/2 _{of the} length of the leading part l of the bullet, then the bullet loses stability in flight due to a decrease in the length of that section of the leading part of the bullet that has a diameter equal to the diameter of the bullet.

If the smaller diameter d _{1 of the} cone is less than the diameter d _p.k. fields of the barrel of the weapon, the magnitude of the leading part of the bullet is reduced, which leads to a loss of stability in flight and to a deterioration in accuracy.

The proposed bullet (in option 2) (Fig. 2) contains a shell 1 in the form of a glass, in which a steel core 2 is placed, and a polyethylene shirt 3. The core 2 is installed with the protrusion of the head over the open end of the shell 1. A polyethylene shirt 3 is placed between the shell 1 and steel core 2.

The bullet has a compensation sinus 4 formed by the shell 1 and the tail of the shirt 3. The tail of the shirt 3 is made in the form of a truncated cone with the following ratio of the parameters of its elements:

- the height l _{1 of the} cone is equal to 1/3 ... 1/2 of the length of the leading part l of the bullet, and the smaller diameter d _{1 of the} cone is greater than or equal to the diameter d of _item Channel fields of the weapon barrel minus twice the wall thickness t at the leading shell of the bullet, but less than the diameter d _n. bullet minus twice the wall thickness t at the leading shell of the bullet.

These ratios are determined by the results of experiments.

If the height l _{1 of the} cone is less than 1/3 of the length of the leading part l of the bullet, the accuracy of the results is deteriorated due to the fact that the bottom undergoes relatively large deformation forces.

If the height l _{1 of the} cone is more than 1/2 of the length of the leading part l of the bullet, then stability is lost on the flight due to the fact that the section of the shirt on which the shell rests when cutting into the grooves of the barrel of the weapon is reduced.

If the smaller diameter d _{1 of the} cone is less than the diameter d _p.k. the field of the gun barrel minus twice the thickness t of the wall of the shell on the leading part of the bullet, it also loses stability in flight due to the reduced portion of the shirt on which the shell rests when cutting into the grooves of the channel of the gun barrel.

The proposed bullet works as follows.

At the moment of the shot, when the bullet is inserted into the rifling of the gun barrel channel, the shell 1 is deformed and as the gun moves through the channel of the gun barrel, the shell metal 1 is pressed into the shirt 3, thereby reducing the resistance of the bottom part of the bullet, because (according to the first version) the leading part of the bullet ends with a truncated cone and the diameter of this cone at the bottom is at the level of the rifling fields of the gun barrel and, therefore, the bottom experiences slight deformations.

Therefore, the deformation of the wall of the shell occurs uniformly along the entire length of the bullet by pressing it into the body of the shirt 3 and therefore the speed of the bullet inside the barrel is constant for this reason, which leads to an improvement in the accuracy of the battle.

At the time of the shot, when a bullet is inserted into the grooves of the gun barrel, the shell 1 is deformed and as the gun moves along the barrel, the shell metal 1 is pressed into the shirt 3, thereby reducing the resistance of the bottom of the bullet due to the presence (in the second version) of the compensation sinus 4.

The presence of the compensation sinus 4 reduces the force of pressing the wall of the shell 1 by the rifling fields of the channel of the barrel of the weapon with the deflection of the bottom in or out of the shell 1. This preserves the stability of the speed of the bullet, and therefore improves the accuracy of battle.

Thus, the advantage of the proposed bullet in relation to the prototype is to improve the accuracy of the battle when firing from short-barreled small arms by maintaining stability of deformation along the entire length of the leading part of the bullet.

Claims (4)

1. A bullet containing a shell in the form of a glass, a shirt and a steel core mounted with the protrusion of the head over the open end of the shell, characterized in that the portion of the leading part of the bullet is made in the form of a truncated cone, the smaller diameter of which is greater than or equal to the diameter of the fields of the gun barrel but less than the diameter of the bullet. 2. The bullet according to claim 1, characterized in that the height of the cone is 1 / 3-1 / 2 of the length of the leading part of the bullet. 3. A bullet containing a shell in the form of a glass, a shirt and a steel core mounted with the protrusion of the head over the open end of the shell, characterized in that the tail of the shirt is made in the form of a truncated cone with the formation of a compensation sinus between it and the shell, with a smaller diameter the cone is greater than or equal to the diameter of the fields of the gun barrel minus twice the shell thickness on the leading part of the bullet, but less than the diameter of the bullet minus twice the shell wall thickness on the leading part of the bullet. 4. The bullet according to claim 3, characterized in that the height of the cone is 1 / 3-1 / 2 of the length of the leading part of the bullet.

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